In Vivo Fate and Distribution of Poly-γ- d -Glutamic Acid, the Capsular Antigen from Bacillus anthracis

Abstract

ABSTRACT Bacillus anthracis is surrounded by an antiphagocytic capsule composed of poly-γ- d -glutamic acid (γDPGA). Bacterial and fungal capsular polysaccharides are shed into body fluids in large amounts during infection. The goal of our study was to examine the in vivo fate and distribution of the γDPGA capsular polypeptide. Mice were injected via the intravenous route with various amounts of purified γDPGA. Blood, urine, and various organs were harvested at different times after treatment. Sites of γDPGA accumulation were determined by immunoassay using monoclonal antibodies specific for γDPGA. The results showed that the liver and spleen were the primary sites for the accumulation of γDPGA. As found in previous studies of capsular polysaccharides, the Kupffer cells of the liver and splenic macrophages were sites for the cellular accumulation of γDPGA. Unlike capsular polysaccharides, the hepatic sinusoidal endothelial cells were also sites for γDPGA accumulation. γDPGA was rapidly cleared from serum and was excreted into the urine. γDPGA in the urine showed a reduced molecular size relative to native γDPGA. The results indicate that in vivo clearance of the polypeptide capsular antigen of B. anthracis shares several features with the clearance of capsular polysaccharides. Key differences between the in vivo behaviors of γDPGA and capsular polysaccharides include the accumulation of γDPGA in hepatic sinusoidal endothelial cells and a γDPGA clearance rate that was more rapid than the clearance reported for capsular polysaccharides.